NO117322B - - Google Patents

Description

Device for short interval blasts.

The present invention relates to connecting pieces for detonating fuses, intended to be shot into such to produce short intervals between explosions.

Detonating fuses are well known as

a type of fuse with a core consisting of a highly explosive substance such as penta-erythritol tetranitrate, and with a waterproof casing around this explosive as well as with a reinforcing coating on the outside of its casing.

Such fuses spread the fire a lot

high speeds, as they detonate at around 6,200 meters/sec. Their explosive power is so great that they can be used to burn

cause strong explosives placed adjacent to the fuse in a drill hole or the like to detonate.

As in other methods of causing explosives to detonate, it is desirable to be able to produce short delay intervals in the propagation of the fire by the use of fuses of the aforementioned type in order to have the advantages of successive explosions separated by very short periods of time.

Such delay intervals have heretofore been produced by using firing caps to initiate separate lengths of detonating fuses, each length being connected to one or more explosive charges. By delaying detonation-

nen of consecutive firing caps according to the known methods, these delays are transferred to the detonating fuses and thus to the various explosive charges. These methods are complicated, rest-

ket means that they are not advantageous for use in the field.

Devices have been proposed which are

'intended to be inserted into lengths of detonating fuses to act as delay 'mechanisms. This interrupts the progress of the detonation wave in a fuse length for a short, limited and predetermined period of time.

In one of the previously proposed types of

such devices, there is an air space inside a metal pipe assembly, and this air space tje-

ner as a delaying device. With devices of this type, the risk of the ignitions not occurring is relatively large, and one must connect two or three of such devices in parallel to ensure correct transmission of the detonation.

In another previously proposed delay element, a delay rate between

lom two initial charges in a delay body placed inside a sleeve, and each initial charge abuts the bottom of a sleeve which serves to accommodate the fuse ends (Norwegian patent no. 82 610). Tests have shown that with this device you generally do not reach the delay that is calculated based on the length of the delay rate. The sudden and intense pressure wave from the detonating initial charge tends to tear up and spread the mixture in the delay charge so that it either does not ignite the subsequent initial charge or burns slowly

more than expected. Significant irregularities have thus been found. consideration of the delay time when testing with this device. Other types of known delay devices are unidirectional so that the detonator wave must enter the device at a specific end of it in order to be delayed

appropriately; whereupon the detonation is re-initiated in the remaining part of the detonating fuse. An error with regard to the direction the detonation wave passes during preparation, of detonation in the ground will, with this type of delay devices, result in ignition failure.

With the help of the present invention, a reliable, waterproof and water-resistant device for short-interval blasting is provided.

In this device, one end of two lengths of detonating fuse can be attached quickly and conveniently, and this attachment can be made in the field without having to take into account the direction of the propagation of the detonation wave.

Of particular importance is that the device according to the invention has proven to be far better than the previously known devices of this kind with regard to achieving predetermined delay intervals and allows such predetermined intervals to be achieved with a length that can be adjusted within wide limits to desire. These advantages seem to have to be attributed to the construction of the delay element specified below.

The device according to the invention, which is therefore intended to be inserted between tp lengths of detonating fuses, comprises a tubular housing, two bottomed sleeves of impermeable material, arranged to receive each end of a detonating fuse <p>g inserted bg retained in a symmetrical position relative to each other at each end of the tubular housing, two charges of detonating explosive placed against each of the bottoms of said sleeves and a tube of lead between and adjacent to said two explosive charges, which tube contains a core of highly compressed gas-free detonation-retarding material, and the main characteristic feature of the invention is that said core proceeds along a curved path, preferably a helical line.

The tubular housing and the impermeable sleeves are preferably made of copper or an aluminum-based alloy. The explosive charges at the base of the casings can be any suitable substance with sufficient explosive power to initiate detonating fuses, preferably they consist of, . as in and of itself known, of lead azide. The metal element between the two blast-: charges are preferably of lead, and the core of this element is preferably, as is known per se, a mixture of lead oxide and elemental silicon in the ratio of 70:30.

The element can be produced in many ways

different ways. However, it is preferred to produce it by filling said material consisting of a lead oxide-silicon mixture into a lead tube which is then sink-forged and drawn out until its diameter is about 25 percent of the original. The lead pipe is then wound up on a mandrel and removed from this mandrel. It is then a body running in "tight" helical lines. This body is inserted into another lead pipe and the whole is lowered and pulled out until it has a diameter that is suitable for it to be inserted into the other part of the device. The body then has the shape of a long cylinder that is cut

up in pieces of such length that they provide the desired delay period. The mixture inside the tube proceeds along a helical line with a strong rise (as it appears, for example, by stretching a helical spring to a considerable extent). The placement of the metal element in the tubular housing can be carried out using punches which are shaped so that the element is pressed firmly into the device and that the spiraling mixture inside the element is further compressed.

One can also use a double element, i.e. an element with two lanes of detonation-retarding compound. Such an element can be made by winding two lengths of lead pipe containing the mixture side by side on a mandrel and then proceeding as above.

The attached drawing shows an embodiment of the invention as an example. In the drawing, 1 denotes lengths of detonating fuse and 2 the bottomed sleeves into which the ends are inserted. 3 denotes the tubular housing into which the sleeves 2 are inserted and fixed. 4 denotes explosive charges placed at each end of the metal element which is denoted by 5 and contains the gas-free retarding mixture denoted by 6. 7 denotes a circular indentation in the housing 3, made during assembly of the device to keep the element 5 in position.

The length of the mixture's curved path between the two explosive charges 4 determines the delay obtained by means of the device, and this length can be easily regulated by making the element longer or shorter, depending on whether a more or less prolonged delay in the detonation wave is desired progress. However, the duration of the delay can also be varied by changing the composition of said mixture or by varying the pressures used when the device is assembled.

Within the framework of the invention, other metals can be used in the parts of the device than those specified above. Likewise, other detonation-delaying mixtures and explosives can be used in the charges 4 than

those stated above.

Claims (5)

1. Device for producing short-interval explosions, of the kind that is adapted to be inserted between two lengths of detonating fuse, and comprising a tubular housing, two bottomed sleeves of impermeable material adapted to receive the ends of detonating fuse, which sleeves with their bottoms facing each other are partially inserted into and retained in symmetrical position in relation to each other at each end of the tubular housing, two charges of detonating explosive placed against each of the bottom of said sleeve and a tube of lead between and adjacent to said two explosive charges, which tube contains a core of highly compressed gas-free detonation retarding material, characterized in that said core runs along a curved path, preferably a helical line. 2. Device according to claim 1, characterized in that the explosive charges, which are known in and of themselves, consist of lead azide. 3. Device according to claim 1, characterized in that said core consists, as is known per se, of a mixture of lead oxide and elemental silicon in the proportion of 70 percent lead oxide and 30 percent silicon. 4. Device according to any one of the preceding claims, characterized in that said tube has two cores of detonation retarding material. 5. Method for producing lead pipes with a core of detonation-retarding material for a device according to claim 1, 2 or 3, characterized in that one fills a length of lead pipe with the detonation-retarding material, countersinks and pulls out this pipe until its diameter is about 25 percent of the original, then it is wound around a mandrel so that a body running in tight helical lines is obtained, this body is inserted into another lead pipe, countersunk and the composite body thus obtained is drawn out to a diameter suitable for the same to be inserted in the device's housing (3) and cuts the resulting elongated body into pieces of such length that the desired delay interval is obtained.